The boom belt, generally referred to as ‘the boom’, is the point at which the cargo is discharged from
the vessel. The boom is a long steel structure that has freedom of movement in two directions, and is
mounted on the main deck, or in a casing on the stern.

The conveyor belt runs on a carriage along the ‘boom’. Adaptations are sometimes made to its
structure to suit the discharge facilities in the vessels trading area.

Boom conveyors have been equipped with conveyor covers, water spray nozzles and dust collectors to reduce spillage and keep dust emissions to a minimum. The smooth upper surface is designed to prevent ice formation and the inner bottom surface is also smooth to facilitate cleaning. Service and inspection are catered for by walkways alongside the belt. A longer life span is anticipated because the components are protected against the external elements.

Fig: Self unloader development of closed boom

The design and location of the
boom is generally to suit the size and location of reception hoppers in all the ports of the trading area,
however, proper positioning of the vessels at the discharge berth is important. Also, to effectively hold
the vessel in position at the berth during the discharging, and resist surges due to passing traffic, and
cope with the rise and fall of tide it is important to pay particular attention to adjustment of the
moorings.

At some ports, a ‘short boom’ discharge is required, and where the discharging is to a pad or ground,
the reach and radius of swing of the boom must be considered. The ‘boom’ is important and its
incapacitation will disable the vessels discharge capability.

The boom is an exposed and vulnerable piece of machinery, and requires continuous watch
keeping to ensure its safety.

The straight boom

The straight boom is a latticed tubular structure of fixed length and carries the boom belt with all its
drive and tensioning elements. It is located on the fore and aft centreline of the vessel.
Its luffing limits are 0 to 18 degrees, and slewing limits are 90 to 100 degrees. It is essential that the
manufacturer’s manual is read to determine the exact limits of the boom. Automatic limit switches are
provided and these must always be operational. The boom is either fixed aft and runs forward, or is
fixed amidships and runs aft.

Fig:Boom operation self unloader American Fortitude

Some old designs have the boom fitted just aft of the forecastle, and running aft. At the head of the
boom is a hood which houses an adjustable deflector plate which directs the flow of cargo. There is
also a water-spray arrangement provided which is used on certain dusty cargoes to protect the
environment.

It is important to check that the nozzles of the water-spray are not clogged. After
parking the boom, it is important to ensure that the link-plate is lowered by extending the piston of the
luffing cylinder, to allow for the vessels longitudinal flexing in a seaway. Where the boom is hoisted
and slewed by wire and tackle, the strain of the wires must be eased-off on tightening as the difference
in atmospheric temperatures could have an adverse effect.

The articulated boom

This is a design with increased freedom of movement. It is ‘articulated’ or ‘flexibly-jointed’ at the
centre, dividing the boom in two. The articulation allows multi positioning of the boom head, and thus
improved flexibility.

The horizontal limit of the boom head is 45 degrees aft of the beam. The diagram of sweep, and the
limits of the inner and outer booms in both planes are available in the manufacturer’s manual. The
outer boom can be used with the inner boom still on the parking-cradle, however, all tie-downs must
be removed. After parking the boom it is important to ensure that the link-plate is lowered, by
extending the piston of the luffing cylinder, to allow for the vessels longitudinal flexing in a seaway.

The shuttle boom

This type of boom is housed on the stern, and is designed to suit the specifications of shore hoppers in
specific trading area. It is extended from a hydraulic door at the side by a shuttle arrangement.

When securing for sea, it is important to ensure that the shuttle boom locking and tie-downs are
engaged, and that the hydraulic door is shut and locked. During rolling, an unlocked boom could force
the shuttle door open, allowing water-ingress. A shuttle door indicator light is fitted on the bridge
however a visual check and report that the door is closed, is essential.

The short boom

This is a modification carried out to the straight boom, to enable discharging in certain ports in the
trading area.

How the belt system works

The belt systems are started sequentially, the boom belt first, followed by the elevating belt, the
transfer belts and then lastly the tunnel or hold belts. Unloading is to be carried out in the AUTOMATIC
MODE ONLY. It is possible to run the unloading system manually but this is only for maintenance
purposes. Unloading with the belt system set in the manual mode bypasses all speed sensing switches,
and leaves the system open to being plugged if a belt should stop.

All the ‘Start-Up Alarms’ will sound in advance on ‘auto’ giving caution. All alarms in the system are to
be checked and maintained in good working order. The ‘pocket elevating’ belt is controlled by
computer controlled automation, which has set programmes of sequential stages and speeds to suit
the characteristics of the cargo being discharged.
The stopping sequence will be in the exact reverse order.